Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial

Gregory M. Marcus; Roderick Tung; Edward P. Gerstenfeld; Trisha F. Hue; Feng Lin; Jing Cheng; J. Peter Weiss; Wendy S. Tzou; Henry Hsia; Ashkan Ehdaie; Daniel H. Cooper; T. Jared Bunch; Jeffrey Arkles; Babak Nazer; Adam Lee; Alexios Hadjis; Duy T. Nguyen; Mihail G. Chelu; Joshua Moss; Jonathan C. Hsu; Miguel Valderrábano; Prashant D. Bhave; Andrew D. Beaser; Arvindh Kanagasundram; Oussama Wazni; Jason Bradfield; Grace Wall; Kathleen Chang; Michelle Yang; Gabrielle Montenegro; Sabrina Jarrott; Joel H. Kramer; Anthony S. Kim; Yvonne M. Morris; William P. Dillon

doi:10.1161/CIRCULATIONAHA.124.071352

Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial

Gregory M. Marcus, Roderick Tung, Edward P. Gerstenfeld, Trisha F. Hue, Feng Lin, Jing Cheng, J. Peter Weiss, Wendy S. Tzou, Henry Hsia, Ashkan Ehdaie, Daniel H. Cooper, T. Jared Bunch, Jeffrey Arkles, Babak Nazer, Adam Lee, Alexios Hadjis, Duy T. Nguyen, Mihail G. Chelu, Joshua Moss, Jonathan C. HsuMiguel Valderrábano, Prashant D. Bhave, Andrew D. Beaser, Arvindh Kanagasundram, Oussama Wazni, Jason Bradfield, Grace Wall, Kathleen Chang, Michelle Yang, Gabrielle Montenegro, Sabrina Jarrott, Joel H. Kramer, Anthony S. Kim, Yvonne M. Morris, William P. Dillon

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

BACKGROUND: Catheter ablation of ventricular arrhythmias, one of the most rapidly growing procedures in cardiac electrophysiology, is associated with magnetic resonance imaging-detected brain lesions in more than half of cases. Although a retrograde aortic approach is conventional, modern tools enable entry through a transseptal approach that may avoid embolization of debris from the arterial system. We sought to test the hypothesis that a transseptal puncture would mitigate brain injury compared with a retrograde aortic approach. METHODS: The TRAVERSE trial (Transseptal Versus Retrograde Aortic Ventricular Entry to Reduce Systemic Emboli) was a multicenter randomized controlled comparative effectiveness trial. Patients with left ventricular arrhythmias undergoing catheter ablation procedures were randomly assigned to a transseptal puncture approach compared (1:1) with a retrograde aortic approach. The primary outcome was the presence of an acute brain lesion detected by magnetic resonance imaging. Secondary outcomes included clinically manifest complications, procedural efficacy, and 6-month neurocognitive assessments. RESULTS: Among the 62 patients randomly assigned to a retrograde aortic approach with postoperative brain magnetic resonance imaging, 28 (45%) exhibited an acute brain lesion compared with 19 of the 69 (28%) of those randomized to a transseptal puncture (P=0.036). No differences in clinically manifest complications or procedural efficacy were observed. More patients in the retrograde aortic arm were categorized as having a high likelihood of cognitive impairment at 6 months (33% compared with 19% of those in the transseptal arm), but substantial loss to follow-up was present. CONCLUSIONS: Among patients undergoing left ventricular catheter ablation procedures, a transseptal approach reduced the risk of acute brain lesions by nearly half compared with a retrograde aortic approach without sacrificing safety or efficacy. Given a likely embolic pathogenesis, the brain magnetic resonance imaging findings may reflect a propensity to other organ damage; these findings may extend to other procedures requiring left ventricular entry.

Original language	English
Pages (from-to)	1051-1059
Number of pages	9
Journal	Circulation
Volume	151
Issue number	15
DOIs	https://doi.org/10.1161/CIRCULATIONAHA.124.071352
State	Published - Apr 15 2025

Keywords

arrhythmias, cardiac
brain injuries
catheter ablation
electrophysiologic techniques, cardiac
embolism
follow-up studies
magnetic resonance imaging

Access to Document

10.1161/CIRCULATIONAHA.124.071352

Cite this

Marcus, G. M., Tung, R., Gerstenfeld, E. P., Hue, T. F., Lin, F., Cheng, J., Weiss, J. P., Tzou, W. S., Hsia, H., Ehdaie, A., Cooper, D. H., Bunch, T. J., Arkles, J., Nazer, B., Lee, A., Hadjis, A., Nguyen, D. T., Chelu, M. G., Moss, J., ... Dillon, W. P. (2025). Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial. Circulation, 151(15), 1051-1059. https://doi.org/10.1161/CIRCULATIONAHA.124.071352

@article{f54ba7bed0934afa93800764af3ebcec,

title = "Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial",

abstract = "BACKGROUND: Catheter ablation of ventricular arrhythmias, one of the most rapidly growing procedures in cardiac electrophysiology, is associated with magnetic resonance imaging-detected brain lesions in more than half of cases. Although a retrograde aortic approach is conventional, modern tools enable entry through a transseptal approach that may avoid embolization of debris from the arterial system. We sought to test the hypothesis that a transseptal puncture would mitigate brain injury compared with a retrograde aortic approach. METHODS: The TRAVERSE trial (Transseptal Versus Retrograde Aortic Ventricular Entry to Reduce Systemic Emboli) was a multicenter randomized controlled comparative effectiveness trial. Patients with left ventricular arrhythmias undergoing catheter ablation procedures were randomly assigned to a transseptal puncture approach compared (1:1) with a retrograde aortic approach. The primary outcome was the presence of an acute brain lesion detected by magnetic resonance imaging. Secondary outcomes included clinically manifest complications, procedural efficacy, and 6-month neurocognitive assessments. RESULTS: Among the 62 patients randomly assigned to a retrograde aortic approach with postoperative brain magnetic resonance imaging, 28 (45%) exhibited an acute brain lesion compared with 19 of the 69 (28%) of those randomized to a transseptal puncture (P=0.036). No differences in clinically manifest complications or procedural efficacy were observed. More patients in the retrograde aortic arm were categorized as having a high likelihood of cognitive impairment at 6 months (33% compared with 19% of those in the transseptal arm), but substantial loss to follow-up was present. CONCLUSIONS: Among patients undergoing left ventricular catheter ablation procedures, a transseptal approach reduced the risk of acute brain lesions by nearly half compared with a retrograde aortic approach without sacrificing safety or efficacy. Given a likely embolic pathogenesis, the brain magnetic resonance imaging findings may reflect a propensity to other organ damage; these findings may extend to other procedures requiring left ventricular entry.",

keywords = "arrhythmias, cardiac, brain injuries, catheter ablation, electrophysiologic techniques, cardiac, embolism, follow-up studies, magnetic resonance imaging",

author = "Marcus, {Gregory M.} and Roderick Tung and Gerstenfeld, {Edward P.} and Hue, {Trisha F.} and Feng Lin and Jing Cheng and Weiss, {J. Peter} and Tzou, {Wendy S.} and Henry Hsia and Ashkan Ehdaie and Cooper, {Daniel H.} and Bunch, {T. Jared} and Jeffrey Arkles and Babak Nazer and Adam Lee and Alexios Hadjis and Nguyen, {Duy T.} and Chelu, {Mihail G.} and Joshua Moss and Hsu, {Jonathan C.} and Miguel Valderr{\'a}bano and Bhave, {Prashant D.} and Beaser, {Andrew D.} and Arvindh Kanagasundram and Oussama Wazni and Jason Bradfield and Grace Wall and Kathleen Chang and Michelle Yang and Gabrielle Montenegro and Sabrina Jarrott and Kramer, {Joel H.} and Kim, {Anthony S.} and Morris, {Yvonne M.} and Dillon, {William P.}",

note = "Publisher Copyright: {\textcopyright} 2025 American Heart Association, Inc.",

year = "2025",

month = apr,

day = "15",

doi = "10.1161/CIRCULATIONAHA.124.071352",

language = "English",

volume = "151",

pages = "1051--1059",

journal = "Circulation",

issn = "0009-7322",

number = "15",

}

Marcus, GM, Tung, R, Gerstenfeld, EP, Hue, TF, Lin, F, Cheng, J, Weiss, JP, Tzou, WS, Hsia, H, Ehdaie, A, Cooper, DH, Bunch, TJ, Arkles, J, Nazer, B, Lee, A, Hadjis, A, Nguyen, DT, Chelu, MG, Moss, J, Hsu, JC, Valderrábano, M, Bhave, PD, Beaser, AD, Kanagasundram, A, Wazni, O, Bradfield, J, Wall, G, Chang, K, Yang, M, Montenegro, G, Jarrott, S, Kramer, JH, Kim, AS, Morris, YM & Dillon, WP 2025, 'Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial', Circulation, vol. 151, no. 15, pp. 1051-1059. https://doi.org/10.1161/CIRCULATIONAHA.124.071352

TY - JOUR

T1 - Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation

T2 - A Randomized Trial

AU - Marcus, Gregory M.

AU - Tung, Roderick

AU - Gerstenfeld, Edward P.

AU - Hue, Trisha F.

AU - Lin, Feng

AU - Cheng, Jing

AU - Weiss, J. Peter

AU - Tzou, Wendy S.

AU - Hsia, Henry

AU - Ehdaie, Ashkan

AU - Cooper, Daniel H.

AU - Bunch, T. Jared

AU - Arkles, Jeffrey

AU - Nazer, Babak

AU - Lee, Adam

AU - Hadjis, Alexios

AU - Nguyen, Duy T.

AU - Chelu, Mihail G.

AU - Moss, Joshua

AU - Hsu, Jonathan C.

AU - Valderrábano, Miguel

AU - Bhave, Prashant D.

AU - Beaser, Andrew D.

AU - Kanagasundram, Arvindh

AU - Wazni, Oussama

AU - Bradfield, Jason

AU - Wall, Grace

AU - Chang, Kathleen

AU - Yang, Michelle

AU - Montenegro, Gabrielle

AU - Jarrott, Sabrina

AU - Kramer, Joel H.

AU - Kim, Anthony S.

AU - Morris, Yvonne M.

AU - Dillon, William P.

PY - 2025/4/15

Y1 - 2025/4/15

N2 - BACKGROUND: Catheter ablation of ventricular arrhythmias, one of the most rapidly growing procedures in cardiac electrophysiology, is associated with magnetic resonance imaging-detected brain lesions in more than half of cases. Although a retrograde aortic approach is conventional, modern tools enable entry through a transseptal approach that may avoid embolization of debris from the arterial system. We sought to test the hypothesis that a transseptal puncture would mitigate brain injury compared with a retrograde aortic approach. METHODS: The TRAVERSE trial (Transseptal Versus Retrograde Aortic Ventricular Entry to Reduce Systemic Emboli) was a multicenter randomized controlled comparative effectiveness trial. Patients with left ventricular arrhythmias undergoing catheter ablation procedures were randomly assigned to a transseptal puncture approach compared (1:1) with a retrograde aortic approach. The primary outcome was the presence of an acute brain lesion detected by magnetic resonance imaging. Secondary outcomes included clinically manifest complications, procedural efficacy, and 6-month neurocognitive assessments. RESULTS: Among the 62 patients randomly assigned to a retrograde aortic approach with postoperative brain magnetic resonance imaging, 28 (45%) exhibited an acute brain lesion compared with 19 of the 69 (28%) of those randomized to a transseptal puncture (P=0.036). No differences in clinically manifest complications or procedural efficacy were observed. More patients in the retrograde aortic arm were categorized as having a high likelihood of cognitive impairment at 6 months (33% compared with 19% of those in the transseptal arm), but substantial loss to follow-up was present. CONCLUSIONS: Among patients undergoing left ventricular catheter ablation procedures, a transseptal approach reduced the risk of acute brain lesions by nearly half compared with a retrograde aortic approach without sacrificing safety or efficacy. Given a likely embolic pathogenesis, the brain magnetic resonance imaging findings may reflect a propensity to other organ damage; these findings may extend to other procedures requiring left ventricular entry.

AB - BACKGROUND: Catheter ablation of ventricular arrhythmias, one of the most rapidly growing procedures in cardiac electrophysiology, is associated with magnetic resonance imaging-detected brain lesions in more than half of cases. Although a retrograde aortic approach is conventional, modern tools enable entry through a transseptal approach that may avoid embolization of debris from the arterial system. We sought to test the hypothesis that a transseptal puncture would mitigate brain injury compared with a retrograde aortic approach. METHODS: The TRAVERSE trial (Transseptal Versus Retrograde Aortic Ventricular Entry to Reduce Systemic Emboli) was a multicenter randomized controlled comparative effectiveness trial. Patients with left ventricular arrhythmias undergoing catheter ablation procedures were randomly assigned to a transseptal puncture approach compared (1:1) with a retrograde aortic approach. The primary outcome was the presence of an acute brain lesion detected by magnetic resonance imaging. Secondary outcomes included clinically manifest complications, procedural efficacy, and 6-month neurocognitive assessments. RESULTS: Among the 62 patients randomly assigned to a retrograde aortic approach with postoperative brain magnetic resonance imaging, 28 (45%) exhibited an acute brain lesion compared with 19 of the 69 (28%) of those randomized to a transseptal puncture (P=0.036). No differences in clinically manifest complications or procedural efficacy were observed. More patients in the retrograde aortic arm were categorized as having a high likelihood of cognitive impairment at 6 months (33% compared with 19% of those in the transseptal arm), but substantial loss to follow-up was present. CONCLUSIONS: Among patients undergoing left ventricular catheter ablation procedures, a transseptal approach reduced the risk of acute brain lesions by nearly half compared with a retrograde aortic approach without sacrificing safety or efficacy. Given a likely embolic pathogenesis, the brain magnetic resonance imaging findings may reflect a propensity to other organ damage; these findings may extend to other procedures requiring left ventricular entry.

KW - arrhythmias, cardiac

KW - brain injuries

KW - catheter ablation

KW - electrophysiologic techniques, cardiac

KW - embolism

KW - follow-up studies

KW - magnetic resonance imaging

UR - http://www.scopus.com/inward/record.url?scp=85219039330&partnerID=8YFLogxK

U2 - 10.1161/CIRCULATIONAHA.124.071352

DO - 10.1161/CIRCULATIONAHA.124.071352

M3 - Article

C2 - 39989365

AN - SCOPUS:85219039330

SN - 0009-7322

VL - 151

SP - 1051

EP - 1059

JO - Circulation

JF - Circulation

IS - 15

ER -

Left Ventricular Entry to Reduce Brain Lesions during Catheter Ablation: A Randomized Trial

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this